EP1486596A2 - Driving arrangement for a weaving loom or a shedding machine - Google Patents

Driving arrangement for a weaving loom or a shedding machine Download PDF

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Publication number
EP1486596A2
EP1486596A2 EP04021755A EP04021755A EP1486596A2 EP 1486596 A2 EP1486596 A2 EP 1486596A2 EP 04021755 A EP04021755 A EP 04021755A EP 04021755 A EP04021755 A EP 04021755A EP 1486596 A2 EP1486596 A2 EP 1486596A2
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EP
European Patent Office
Prior art keywords
drive
drive shaft
shaft
machine
shedding machine
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP04021755A
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German (de)
French (fr)
Other versions
EP1486596A3 (en
Inventor
Valentin Krumm
Zwehl Dietmar Dr. Von
Michael Lehmann
Dieter Mayer
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Lindauer Dornier GmbH
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Lindauer Dornier GmbH
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Publication date
Application filed by Lindauer Dornier GmbH filed Critical Lindauer Dornier GmbH
Publication of EP1486596A2 publication Critical patent/EP1486596A2/en
Publication of EP1486596A3 publication Critical patent/EP1486596A3/en
Withdrawn legal-status Critical Current

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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03CSHEDDING MECHANISMS; PATTERN CARDS OR CHAINS; PUNCHING OF CARDS; DESIGNING PATTERNS
    • D03C3/00Jacquards
    • D03C3/24Features common to jacquards of different types
    • D03C3/32Jacquard driving mechanisms
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03CSHEDDING MECHANISMS; PATTERN CARDS OR CHAINS; PUNCHING OF CARDS; DESIGNING PATTERNS
    • D03C1/00Dobbies
    • D03C1/14Features common to dobbies of different types
    • D03C1/146Independent drive motor
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03CSHEDDING MECHANISMS; PATTERN CARDS OR CHAINS; PUNCHING OF CARDS; DESIGNING PATTERNS
    • D03C13/00Shedding mechanisms not otherwise provided for
    • D03C13/02Shedding mechanisms not otherwise provided for with independent drive motors
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D51/00Driving, starting, or stopping arrangements; Automatic stop motions
    • D03D51/02General arrangements of driving mechanism

Definitions

  • the invention relates to a drive arrangement for a weaving or shedding machine, wherein a drive shaft having a first end and a second end Weaving machine and / or the shedding machine means for compensating Has fluctuations in speed of the drive of the weaving and / or shedding machine.
  • a drive which acts via transmission elements on a main drive shaft which is provided with a gear wheel.
  • the switching gear is in a first position both with a gear at least for driving the sley of a weaving machine and with a gear at least for the drive of shedding means and the switching gear in a second position is only in engagement with one of the two gears.
  • a drive for a weaving machine is known from WO 98/31856, the drive of which is arranged coaxially with the main drive shaft and is directly connected to it.
  • the main drive shaft of the weaving machine can be moved in one direction by means of a hydraulic or pneumatic adjustment system in such a way that the drive takes place only on the shedding device.
  • the main drive shaft can be displaced through the motor field in the other direction so that the drive is effective both for the sley, possibly for the grippers, and for the shedding device; ie this position of the main drive shaft is the position for the ongoing weaving operation.
  • the aforementioned solutions are based on a central drive and a positive connection between the weaving machine and the shedding machine in weaving operation. This means that all alternating torques are transmitted via the main drive shaft or at least over sections thereof. The following torsions cause vibrations to be transmitted to the overall construction, which can impair the weaving quality and result in high power consumption for the drive system as well as a high failure rate of the overall machine. Furthermore, the positive connection between the weaving machine and the shedding machine is subject to wear and loss. The above-mentioned solutions are also unfavorable for the design of the drive, because the positive connection between the weaving machine and the shedding machine always requires their simultaneous start.
  • a drive arrangement for a weaving machine is already known from EP 0 893 525 A1, which drive arrangement comprises a weaving machine with a drive motor as main motor or secondary motor, a shedding machine with a drive motor correspondingly as secondary motor or main motor and a control device.
  • the control device is designed to follow a control strategy in order to operate the power take-off with the main drive with a synchronous or leading or lagging angular position.
  • EP 0 893 525 A1 does not disclose how, in such a drive arrangement, fluctuations in the speed of the drive of the shedding and weaving machine, based on the main shaft of the weaving machine and the drive shaft of the shedding machine, can be largely compensated for.
  • DE 44 36 424 A1 also discloses a method for driving a weaving machine, according to which the main weaving machine shaft is rotated with the aid of at least one electromotive drive connected coaxially to the main shaft.
  • the electric motor drive is connected to a power supply and is operatively connected to a control unit.
  • the drive is actuated by the control unit, preferably by sinusoidal control signals that are generated in the control unit, in such a way that the main shaft is accelerated or decelerated with a variable rotational or angular speed during a corresponding revolution by the electromotive drive.
  • the electromotive drive is a direct current drive which is operated in such a way that it sometimes works as a direct current motor and sometimes as a direct current generator. In the event that the drive works as a direct current motor, it is fed with energy from the power distribution network and in the case that the drive works as direct current generator, the electrical energy generated by the drive is fed back into the power supply network.
  • a drive arrangement for a drive shaft of a weaving machine having a first end and a second end which drive shaft has means for compensating for fluctuations in rotational speed of the drive of the weaving machine.
  • One end of the drive shaft is indirectly connected to an electric motor drive, while two coupling means which can be switched to gear means are arranged between the ends of the drive shaft.
  • An electromotive auxiliary drive is effective on the switchable coupling means.
  • the object of the invention is, with sufficient compensation of Speed fluctuations of the drive of the weaving and / or shedding machine the number to reduce the drives and drive transmission means effective on the drive shaft.
  • the drawing shows a drive arrangement for a weaving or shedding machine.
  • the shaft 2 is preferably the main drive shaft / drive shaft of a weaving or shedding machine. With the shaft 2, the gears 3 and 4 are firmly connected. The shaft 2 is in turn in engagement with the gear 5, while the gear 4 is in engagement with the gear 6. Furthermore, component 7, which functions electrically as a stator or rotor of a linear motor 1, is fixedly mounted on shaft 2. Conversely, component 8 forms the rotor or stator of this linear motor, the rotor function for component 8 being preferred. The directional arrows 8 ′ entered on both sides next to the component 8 symbolize the linear movement of the rotor 8. A fixed part is connected to the rotor 8, which is preferably designed as a friction wheel.
  • the rotary part 9 is frictionally connected to the rotary part 10, which acts as a flywheel, which is then preferably also designed as a friction wheel.
  • the rotating parts 9, 10 thus form a continuously variable transmission with an adjustable transmission ratio;
  • the adjustable transmission ratio of the rotating parts 9, 10 can accordingly adjust the mass moment of inertia effective on the part of the rotating part 10 with respect to the shaft 2.
  • the shaft 11 is in turn connected to the shaft 11 via a bearing 12 which is endlessly rotatable in both directions, which bearing is in turn connected to the mass M.
  • the symbol M means that the brakes, not shown, bring the respective machine to a standstill against "ground”, ie in relation to the machine frame or the ground.
  • Ü is preferably minimized for restarting the machine.
  • the machine thus automatically reduces its speed according to the conservation of angular momentum, whereby a service brake is significantly relieved, even though the kinetic energy to be absorbed remains unchanged due to the change in Ü.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)
  • Warping, Beaming, Or Leasing (AREA)

Abstract

Flywheel sections (5.4, 5.14) mounted on the main drive shaft (5.7) provide compensation. One section (5.14) acts directly on the shedding machine drive shaft (5.17). In an alternative, moment of inertia is added in the form of a flywheel on the main shaft with the electric motor drive (5, 5A). The drive for the loom is divided between several electric motor drives (5A) operating on the main shaft (5.7). The shedding machine drive the comprises at least one electric motor (5A) acting on the main drive shaft (5.7). In a further alternative arrangement, drive is transmitted through an indirect coupling (non-contacting), connecting it to the shedding machine drive shaft, during operation. The machine includes brakes. These are preferably integrated into the drive section, to bring the loom and shedding machine to rest. Further brakes (518) are allocated to the loom main drive shaft. A third braking system (519) operates on the shedding machine drive shaft. All electric motors sharing drive duty (5A) are connected to the controller for signal transmission. The drive equipment and its variants are further detailed.

Description

Die Erfindung betrifft eine Antriebsanordnung für eine Web- oder Fachbildemaschine, wobei eine ein erstes Ende und eine ein zweites Ende aufweisende Antriebswelle der Webmaschine und/oder der Fachbildemaschine Mittel zur Kompensation von Drehzahlschwankungen des Antriebs der Web- und/oder Fachbildemaschine besitzt.The invention relates to a drive arrangement for a weaving or shedding machine, wherein a drive shaft having a first end and a second end Weaving machine and / or the shedding machine means for compensating Has fluctuations in speed of the drive of the weaving and / or shedding machine.

Aus der EP-A 0 726 345 ist ein Antrieb bekannt, der über Übertragungselemente auf eine Hauptantriebswelle, welche mit einem Schaltzahnrad versehen ist, wirkt.
Das Schaltzahnrad ist in einer ersten Position sowohl mit einem Zahnrad wenigstens für einen Antrieb der Weblade einer Webmaschine als auch mit einem Zahnrad wenigstens für den Antrieb von Fachbildemitteln im Eingriff und wobei das Schaltzahnrad in einer zweiten Position nur mit einem der beiden Zahnräder in Eingriff steht.From EP-A 0 726 345 a drive is known which acts via transmission elements on a main drive shaft which is provided with a gear wheel.
The switching gear is in a first position both with a gear at least for driving the sley of a weaving machine and with a gear at least for the drive of shedding means and the switching gear in a second position is only in engagement with one of the two gears.

Aus der WO 98/31856 ist ein Antrieb für eine Webmaschine bekannt, dessen Antrieb koaxial zur Hauptantriebswelle angeordnet und direkt mit dieser verbunden ist. Die Hauptantriebswelle der Webmaschine ist durch ein hydraulisches oder pneumatisches Verstellsystem so in eine Richtung verschiebbar, dass der Antrieb nur auf die Fachbildeeinrichtung erfolgt.
Ferner ist die Hauptantriebswelle durch das Motorenfeld hindurch so in die andere Richtung verschiebbar, dass der Antrieb sowohl für die Weblade, gegebenenfalls für die Greifer als auch für die Fachbildeeinrichtung wirksam ist; d.h. diese Position der Hauptantriebswelle ist die Position für den laufenden Webbetrieb.A drive for a weaving machine is known from WO 98/31856, the drive of which is arranged coaxially with the main drive shaft and is directly connected to it. The main drive shaft of the weaving machine can be moved in one direction by means of a hydraulic or pneumatic adjustment system in such a way that the drive takes place only on the shedding device.
Furthermore, the main drive shaft can be displaced through the motor field in the other direction so that the drive is effective both for the sley, possibly for the grippers, and for the shedding device; ie this position of the main drive shaft is the position for the ongoing weaving operation.

Die vorgenannten Lösungen gehen von einem Zentralantrieb sowie von einer formschlüssigen Verbindung von Webmaschine und Fachbildemaschine im Webbetrieb aus. Damit werden alle Wechselmomente über die Hauptantriebswelle oder zumindest über Abschnitte derselben übertragen. Die folglichen Torsionen verursachen auf die Gesamtkonstruktion übertragende Schwingungen, die zu Beeinträchtigungen der Webqualität führen können, sowie einen hohen Stromverbrauch des Antriebsystems als auch eine hohe Ausfallhäufigkeit der Gesamtmaschine zur Folge haben.
Ferner ist die formschlüssige Verbindung zwischen Webmaschine und Fachbildemaschine verschleiss- und verlustbehaftet.
Auch für die Auslegung des Antriebs gestalten sich die vorgenannten Lösungen ungünstig, weil die formschlüssige Verbindung zwischen der Webmaschine und der Fachbildemaschine immer deren gleichzeitigen Start erfordert. So wird zur Vermeidung von Anlaufstellen im Gewebe eine sehr hohe Startdynamik erforderlich, die, bezogen auf ihre Momentenentwicklung, extrem trägheitsarme Motoren (Antriebe) erfordert. Solche Antriebe haben dann in den meisten Fällen ein für den Dauerbetrieb unzureichendes thermisches Moment (Nennmoment), so dass sie fremdgekühlt werden müssen, zumeist mit Öl oder Wasser.
Ein weiterer Nachteil ist, dass die in den bekannten Lösungen vorgesehenen Verstellmechanismen für das Schaltzahnrad bzw. für die Hauptantriebswelle zusätzlich Verschleisskomponenten sind, die außerdem einen zusätzlichen Wartungsaufwand bedeuten.The aforementioned solutions are based on a central drive and a positive connection between the weaving machine and the shedding machine in weaving operation. This means that all alternating torques are transmitted via the main drive shaft or at least over sections thereof. The following torsions cause vibrations to be transmitted to the overall construction, which can impair the weaving quality and result in high power consumption for the drive system as well as a high failure rate of the overall machine.
Furthermore, the positive connection between the weaving machine and the shedding machine is subject to wear and loss.
The above-mentioned solutions are also unfavorable for the design of the drive, because the positive connection between the weaving machine and the shedding machine always requires their simultaneous start. To avoid contact points in the fabric, very high starting dynamics are required, which, based on their torque development, require extremely low-inertia motors (drives). In most cases, such drives then have an insufficient thermal torque (nominal torque) for continuous operation, so that they have to be externally cooled, usually with oil or water.
Another disadvantage is that the adjustment mechanisms provided in the known solutions for the switching gear or for the main drive shaft are additional wear components, which also mean additional maintenance.

Aus der EP 0 893 525 A1 ist bereits eine Antriebsanordnung für eine Webmaschine bekannt, welche Antriebsanordnung eine Webmaschine mit einem Antriebsmotor als Hauptmotor oder Nebenmotor, eine Fachbildemaschine mit einem Antriebsmotor entsprechend als Nebenmotor oder Hauptmotor und eine Steuereinrichtung umfasst.
Die Steuereinrichtung ist ausgelegt, einer Regelstrategie zu folgen, um den Nebenantrieb bezüglich dem Hauptantrieb mit synchroner bzw. vor- oder nacheilender Winkelposition zu betreiben. Die EP 0 893 525 A1 offenbart nicht, wie bei einer solchen Antriebsanordnung Schwankungen der Drehzahl des Antriebs der Fachbilde- und Webmaschine, bezogen auf die Hauptwelle der Webmaschine und die Antriebswelle der Fachbildemaschine, weitestgehend kompensiert werden können.A drive arrangement for a weaving machine is already known from EP 0 893 525 A1, which drive arrangement comprises a weaving machine with a drive motor as main motor or secondary motor, a shedding machine with a drive motor correspondingly as secondary motor or main motor and a control device.
The control device is designed to follow a control strategy in order to operate the power take-off with the main drive with a synchronous or leading or lagging angular position. EP 0 893 525 A1 does not disclose how, in such a drive arrangement, fluctuations in the speed of the drive of the shedding and weaving machine, based on the main shaft of the weaving machine and the drive shaft of the shedding machine, can be largely compensated for.

Aus der DE 44 36 424 A1 ist ferner ein Verfahren zum Antreiben einer Webmaschine bekannt, wonach die Webmaschinenhauptwelle mit Hilfe wenigstens eines koaxial mit der Hauptwelle verbundenen elektromotorischen Antriebs gedreht wird.
Der elektromotorische Antrieb ist an ein Stromnetz angeschlossen und steht mit einer Steuereinheit in Wirkverbindung.
Der Antrieb wird von der Steuereinheit, vorzugsweise durch sinusförmige Steuersignale, die in der Steuereinheit erzeugt werden, betätigt, und zwar derart, dass die Hauptwelle während einer entsprechenden Umdrehung von dem elektromotorischen Antrieb mit veränderlicher Dreh- oder Winkelgeschwindigkeit beschleunigt oder verzögert gedreht wird.
Der elektromotorische Antrieb ist dabei ein Gleichstromantrieb, der so betätigt wird, dass dieser zeitweise als Gleichstrommotor und zeitweise als Gleichstromgenerator arbeitet.
Im Falle, dass der Antrieb als Gleichstrommotor arbeitet, wird er mit Energie aus dem Stromverteilungsnetz gespeist und im Falle, dass der Antrieb als Gleichstromgenerator arbeitet, wird die von dem Antrieb erzeugte elektrische Energie in das Stromversorgungsnetz zurückgespeist. DE 44 36 424 A1 also discloses a method for driving a weaving machine, according to which the main weaving machine shaft is rotated with the aid of at least one electromotive drive connected coaxially to the main shaft.
The electric motor drive is connected to a power supply and is operatively connected to a control unit.
The drive is actuated by the control unit, preferably by sinusoidal control signals that are generated in the control unit, in such a way that the main shaft is accelerated or decelerated with a variable rotational or angular speed during a corresponding revolution by the electromotive drive.
The electromotive drive is a direct current drive which is operated in such a way that it sometimes works as a direct current motor and sometimes as a direct current generator.
In the event that the drive works as a direct current motor, it is fed with energy from the power distribution network and in the case that the drive works as direct current generator, the electrical energy generated by the drive is fed back into the power supply network.

Dadurch, dass gemäß vorbekanntem Stand der Technik die Webmaschine und die Fachbildemaschine beim Start im wesentlichen synchron betrieben werden, muss eine relativ hohe Gesamtantriebsenergie in der Startphase aus dem Stromnetz zur Verfügung gestellt werden.
Dieser Umstand hat sowohl Gültigkeit für Webmaschinen, die mit wenigstens einem Hauptantriebsmotor ausgerüstet sind und wobei der Antrieb für die Fachbildemaschine von der Hauptantriebswelle der Webmaschine abgeleitet ist, als auch Gültigkeit für Webmaschinen, die mit der Antriebsanordnung nach der EP 0 893 525 A1 versehen sind.Due to the fact that, according to the prior art, the weaving machine and the shedding machine are operated essentially synchronously at the start, a relatively high total drive energy has to be made available from the power supply in the starting phase.
This fact applies both to weaving machines that are equipped with at least one main drive motor and the drive for the shedding machine is derived from the main drive shaft of the weaving machine, as well as to weaving machines that are provided with the drive arrangement according to EP 0 893 525 A1.

Aus dem BE-Dokument 1000678A4 ist eine Antriebsanordnung für eine ein erstes Ende und eine ein zweites Ende aufweisende Antriebswelle einer Webmaschine bekannt, welche Antriebswelle Mittel zur Kompensation von Drehzahlschwankungen des Antriebs der Webmaschine besitzt.
Ein Ende der Antriebswelle steht indirekt mit einem elektromotorischen Antrieb in Verbindung, während zwischen den Enden der Antriebswelle zwei auf getriebliche Mittel schaltbare Kupplungsmittel angeordnet sind. Auf die schaltbaren Kupplungsmittel ist ein elektromotorischer Hilfsantrieb wirksam.From BE document 1000678A4, a drive arrangement for a drive shaft of a weaving machine having a first end and a second end is known, which drive shaft has means for compensating for fluctuations in rotational speed of the drive of the weaving machine.
One end of the drive shaft is indirectly connected to an electric motor drive, while two coupling means which can be switched to gear means are arranged between the ends of the drive shaft. An electromotive auxiliary drive is effective on the switchable coupling means.

Die Aufgabe der Erfindung besteht darin, bei hinreichender Kompensation von Drehzahlschwankungen des Antriebs der Web- und/oder der Fachbildemaschine die Anzahl der auf die Antriebswelle wirksamen Antriebe und Antriebsübertragungsmittel zu reduzieren.The object of the invention is, with sufficient compensation of Speed fluctuations of the drive of the weaving and / or shedding machine the number to reduce the drives and drive transmission means effective on the drive shaft.

Erfindungsgemäß wird die Aufgabe durch die kennzeichnenden Merkmale von Patentanspruch 1 gelöst.
Weitere Ausgestaltungen und Vorteile der Erfindung ergeben sich aus den abhängigen Ansprüchen 2 bis 10.According to the invention the object is achieved by the characterizing features of claim 1.
Further configurations and advantages of the invention result from the dependent claims 2 to 10.

Die Erfindung wird nachfolgend anhand eines Ausführungsbeispiels näher erläutert.The invention is explained in more detail below using an exemplary embodiment.

Die Zeichnung zeigt eine Antriebsanordnung für eine Web- oder Fachbildemaschine.The drawing shows a drive arrangement for a weaving or shedding machine.

Die Welle 2 ist vorzugsweise die Hauptantriebswelle/Antriebswelle einer Web- oder Fachbildemaschine. Mit der Welle 2 sind die Zahnräder 3 und 4 fest verbunden. Die Welle 2 steht dabei ihrerseits wiederum mit dem Zahnrad 5 in Eingriff, während das Zahnrad 4 mit dem Zahnrad 6 in Eingriff ist. Weiterhin ist auf der Welle 2 die Komponente 7 fest montiert, welche elektrisch als Ständer oder Läufer eines Linearmotors 1 fungiert. Entsprechend umgekehrt bildet die Komponente 8 den Läufer oder Ständer dieses Linearmotors, wobei die Läuferfunktion für die Komponente 8 bevorzugt ist.
Die beidseitig neben der Komponente 8 eingetragenen Richtungspfeile 8' symbolisieren die Linearbewegung des Läufers 8.
Mit dem Läufer 8 fest verbunden ist ein Rotationsteil 9, das vorzugsweise als Reibrad ausgeführt ist. Über Reibung ist das Rotationsteil 9 kraftschlüssig mit dem als Schwungmasse fungierenden Rotationsteil 10 verbunden, welches dann vorzugsweise ebenfalls als Reibrad ausgeführt ist. Die Rotationsteile 9,10 bilden so ein stufenlos verstellbares Getriebe mit einer verstellbaren Übersetzung; durch die verstellbare Übersetzung der Rotationsteile 9,10 lässt sich entsprechend das seitens des Rotationsteils 10 bezüglich der Welle 2 wirksame Massenträgheitsmoment verstellen.
Durch ein Anordnung ist beim - oft gewebebedingten - Drehzahlwechsel im laufenden Betrieb hilfreich, ebenso kann die Maschine zunächst gegen ein, bezogen auf die Welle 2, kleines wirksames Massenträgheitsmoment anfahren, während im laufenden Betrieb das drehzahlbezogene Verhältnis Ü = ω76 : ω79 zwischen dem Rotationsteil 9 und dem Rotationsteil 10 verkleinert wird, d.h. die Komponente 8 verändert mit dem Rotationsteil 9 seine Lage in Richtung Rotationsachse 14 des Rotationskörpers 10. Durch diese Verkleinerung gewinnt das Massenträgheitsmoment des Rotationsteils 10 gegenüber der Welle 2 an Größe, da es, bezogen auf die Welle, mit dem Faktor 1 : Ü2 = Ü-2 eingeht.
Das Rotationsteil 10 ist mit der Welle 11 fest verbunden. Die Welle 11 wiederum ist über ein in beide Richtungen endlos drehbares Lager 12 mit der Welle 11 verbunden, welches Lager wiederum mit Masse M verbunden ist.
Das Symbol M bedeutet, dass die nicht dargestellte Bremsen ein Stillsetzen der jeweiligen Maschine gegen "Masse", d.h. in Bezug auf den Maschinenrahmen bzw. Erdboden, bewirken.The shaft 2 is preferably the main drive shaft / drive shaft of a weaving or shedding machine. With the shaft 2, the gears 3 and 4 are firmly connected. The shaft 2 is in turn in engagement with the gear 5, while the gear 4 is in engagement with the gear 6. Furthermore, component 7, which functions electrically as a stator or rotor of a linear motor 1, is fixedly mounted on shaft 2. Conversely, component 8 forms the rotor or stator of this linear motor, the rotor function for component 8 being preferred.
The directional arrows 8 ′ entered on both sides next to the component 8 symbolize the linear movement of the rotor 8.
A fixed part is connected to the rotor 8, which is preferably designed as a friction wheel. The rotary part 9 is frictionally connected to the rotary part 10, which acts as a flywheel, which is then preferably also designed as a friction wheel. The rotating parts 9, 10 thus form a continuously variable transmission with an adjustable transmission ratio; The adjustable transmission ratio of the rotating parts 9, 10 can accordingly adjust the mass moment of inertia effective on the part of the rotating part 10 with respect to the shaft 2.
An arrangement helps with the - often tissue-related - speed change during operation, and the machine can also start against a small effective moment of inertia, based on shaft 2, while the speed-related ratio Ü = ω 76 : ω 79 between the Rotating part 9 and the rotating part 10 is reduced, ie the component 8 changes with the rotating part 9 its position in the direction of the axis of rotation 14 of the rotating body 10. By this reduction, the mass moment of inertia of the rotating part 10 with respect to the shaft 2 increases in size, since it, based on the Wave, with the factor 1: Ü 2 = Ü -2 is received.
The rotary part 10 is fixed to the shaft 11. The shaft 11 is in turn connected to the shaft 11 via a bearing 12 which is endlessly rotatable in both directions, which bearing is in turn connected to the mass M.
The symbol M means that the brakes, not shown, bring the respective machine to a standstill against "ground", ie in relation to the machine frame or the ground.

Für das Wiederstillsetzen der Maschine wird Ü vorzugsweise minimiert. Die Maschine reduziert so gemäß Drehimpulserhaltungssatz von sich aus ihre Geschwindigkeit, wodurch eine Betriebsbremse deutlich entlastet wird, obwohl die von ihr aufzunehmende kinetische Energie durch die Veränderung von Ü unverändert bleibt.
Eine weitere geeignete Maßnahme zur Unterstützung des Hochlaufes und Wiederstillsetzens der jeweiligen Maschine besteht darin, dass zwischen den Komponenten 7 und 8 nicht nur eine translatorische (= lineare), sondern zusätzlich eine rotatorische Bewegung möglich ist. Diese rotatorische Bewegung wird vorzugsweise auf elektrischem Weg, d.h. durch entsprechende Bestromung vorgenommen; die Komponenten 7 und 8 bilden dann, zusätzlich zur Funktion des Linearantriebes, einen für den Stillstandsbetrieb und als Kupplung geeigneten Antrieb 1.
Für den Hochlauf wird dann bei stillgesetzter Welle 2 zunächst das Rotationsteil 10 auf eine entsprechende Drehzahl beschleunigt und dann die kinetische Energie des Rotationsteils 10 für den Hochlauf der zur Welle 2 gehörenden Maschine genutzt. Das Wiederstillsetzen dieser Maschine erfolgt entsprechend umgekehrt - oder dadurch, dass durch Unterbrechung der entsprechenden Stromversorgung kein Drehmoment zwischen den Komponenten 7 und 8 mehr wirkt, womit die Maschine und das als Schwungmasse ausgebildete Rotationsteil 10 voneinander entkoppelt sind. Die gebogenen Pfeile zeigen den Richtungszusammenhang zwischen ω76 : ω79 ; ändert ω76 die Richtung, so tut es ω79 gleichfalls. Ü is preferably minimized for restarting the machine. The machine thus automatically reduces its speed according to the conservation of angular momentum, whereby a service brake is significantly relieved, even though the kinetic energy to be absorbed remains unchanged due to the change in Ü.
Another suitable measure to support the start-up and shutdown of the respective machine is that between components 7 and 8 not only a translational (= linear) but also a rotational movement is possible. This rotary movement is preferably carried out by electrical means, that is, by appropriate energization; Components 7 and 8 then form, in addition to the function of the linear drive, a drive 1 suitable for standstill operation and as a clutch.
For the run-up, when the shaft 2 is stopped, the rotary part 10 is first accelerated to a corresponding speed and then the kinetic energy of the rotary part 10 is used for the run-up of the machine belonging to the shaft 2. The restart of this machine is reversed accordingly - or by no torque acting between components 7 and 8 due to the interruption of the corresponding power supply, whereby the machine and the rotating part 10 designed as a flywheel are decoupled from one another. The curved arrows show the directional relationship between ω 76 : ω 79 ; if ω 76 changes direction, so does ω 79 .

Zeichnungs-LegendeDrawing Legend

11
Motorengine
22
Wellewave
33
Zahnradgear
44
Zahnradgear
55
Zahnradgear
66
Zahnradgear
77
Ständer/Läufer LinearmotorStator / rotor linear motor
88th
Läufer/Ständer LinearmotorLinear motor rotor / stator
8'8th'
Richtungspfeilarrow
99
Rotationsteilrotating part
1010
Rotationsteil (Schwungmasse)Rotating part (flywheel)
1111
Wellewave
1212
Lagercamp
1313
Wellewave
1414
Rotationsachseaxis of rotation

Claims (10)

Antriebsanordnung für eine Web- oder Fachbildemaschine, wobei eine ein erstes Ende und eine ein zweites Ende aufweisende Antriebswelle der Webmaschine und/oder der Fachbildemaschine und Mittel zur Kompensation von Drehzahlschwankungen des Antriebs der Web- und/oder Fachbildemaschine besitzt, dadurch gekennzeichnet, dass zwischen den Enden der Antriebswelle (2) wenigstens ein elektromotorischer Antrieb (1) auf der Antriebswelle (2) angeordnet ist.Drive arrangement for a weaving or shedding machine, wherein a drive shaft of the weaving machine and / or shedding machine having a first end and a second end and means for compensating for speed fluctuations of the drive of the weaving and / or shedding machine, characterized in that between the At least one electromotive drive (1) is arranged on the drive shaft (2) at the ends of the drive shaft (2). Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass der elektromotorische Antrieb (1) aus zwei gegeneinander drehbaren Komponenten (7,8) besteht, von denen die eine Komponente (7) direkt mit der Antriebswelle (2) verbunden ist und elektrisch der Stator oder Rotor des Antriebs (1) ist und die andere Komponente (8), entsprechend umgekehrt, der Rotor oder Stator des Antriebs (1) ist.Drive arrangement according to claim 1, characterized in that the electromotive drive (1) consists of two mutually rotatable components (7, 8), of which one component (7) is connected directly to the drive shaft (2) and electrically the stator or rotor of the drive (1) and the other component (8), correspondingly vice versa, is the rotor or stator of the drive (1). Antriebsanordnung nach Anspruch 2, dadurch gekennzeichnet, dass mit dem Rotor (8) ein Rotationsteil (9) fest verbunden ist, dass kraftschlüssig mit einer um eine vertikale Achse (13) rotierend angeordneten Schwungmasse (10) verbunden ist.Drive arrangement according to Claim 2, characterized in that a rotary part (9) is fixedly connected to the rotor (8) and is non-positively connected to a flywheel (10) which rotates about a vertical axis (13). Antriebsanordnung nach Anspruch 3, dadurch gekennzeichnet, dass Rotationsteil (9) und Schwungmasse (10) als Reibräder ausgebildet sind.Drive arrangement according to claim 3, characterized in that the rotating part (9) and flywheel (10) are designed as friction wheels. Antriebsanordnung nach Anspruch 4, dadurch gekennzeichnet, dass die Reibräder ein stufenlos verstellbares Getriebe bilden.Drive arrangement according to claim 4, characterized in that the friction wheels form a continuously variable transmission. Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass die Komponenten (7,8) zusammen einen Linearmotor bilden.Drive arrangement according to claim 1, characterized in that the components (7, 8) together form a linear motor. Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass die Komponenten (7,8) zusammen einen Rotationsmotor bilden.Drive arrangement according to claim 1, characterized in that the components (7, 8) together form a rotary motor. Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass zwischen den Komponenten (7,8) neben der linearen Bewegung (8') zusätzlich eine rotatorische Bewegung erzeugt wird. Drive arrangement according to Claim 1, characterized in that, in addition to the linear movement (8 '), a rotary movement is additionally generated between the components (7, 8). Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass die Antriebswelle (7.2) die Hauptantriebswelle einer Webmaschine ist.Drive arrangement according to claim 1, characterized in that the drive shaft (7.2) is the main drive shaft of a loom. Antriebsanordnung nach Anspruch 1, dadurch gekennzeichnet, dass die Antriebswelle (7.2) die Antriebswelle einer Fachbildemaschine ist.Drive arrangement according to claim 1, characterized in that the drive shaft (7.2) is the drive shaft of a shedding machine.
EP04021755A 2000-12-12 2001-11-22 Driving arrangement for a weaving loom or a shedding machine Withdrawn EP1486596A3 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE10061717A DE10061717B4 (en) 2000-12-12 2000-12-12 Drive arrangement for a weaving machine and shedding machine
DE10061717 2000-12-12
EP01270643A EP1366225B1 (en) 2000-12-12 2001-11-22 Drive arrangement for a weaving loom and shedding machine

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
EP01270643A Division EP1366225B1 (en) 2000-12-12 2001-11-22 Drive arrangement for a weaving loom and shedding machine

Publications (2)

Publication Number Publication Date
EP1486596A2 true EP1486596A2 (en) 2004-12-15
EP1486596A3 EP1486596A3 (en) 2005-05-18

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EP04021755A Withdrawn EP1486596A3 (en) 2000-12-12 2001-11-22 Driving arrangement for a weaving loom or a shedding machine
EP01270643A Expired - Lifetime EP1366225B1 (en) 2000-12-12 2001-11-22 Drive arrangement for a weaving loom and shedding machine

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US (1) US6962171B2 (en)
EP (2) EP1486596A3 (en)
JP (1) JP3983670B2 (en)
CN (2) CN1489652A (en)
AT (1) ATE299539T1 (en)
CZ (1) CZ20031924A3 (en)
DE (2) DE10061717B4 (en)
RU (1) RU2250276C2 (en)
WO (1) WO2002048438A2 (en)

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Also Published As

Publication number Publication date
WO2002048438A3 (en) 2003-09-25
CZ20031924A3 (en) 2004-02-18
EP1366225B1 (en) 2005-07-13
DE10061717B4 (en) 2006-01-26
CN1489652A (en) 2004-04-14
US6962171B2 (en) 2005-11-08
EP1486596A3 (en) 2005-05-18
JP3983670B2 (en) 2007-09-26
EP1366225A2 (en) 2003-12-03
DE50106742D1 (en) 2005-08-18
JP2004514804A (en) 2004-05-20
CN1908269A (en) 2007-02-07
RU2250276C2 (en) 2005-04-20
RU2003121235A (en) 2005-01-10
US20040025956A1 (en) 2004-02-12
WO2002048438A2 (en) 2002-06-20
DE10061717A1 (en) 2002-06-20
ATE299539T1 (en) 2005-07-15

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